Pressure and temperature dependence of the absorption edge of a thick Ga0.92In0.08As0.985N0.015 layer

Pressure and temperature dependence of the absorption edge of a thick Ga0.92In0.08As0.985N0.015 layer

We have studied the pressure and temperature dependence of the absorption edge of a 4-μm-thick layer of the alloy Ga0.92In0.08As0.985N0.015. We have measured the hydrostatic pressure coefficient of the energy gap of this alloy to be 51 meV/GPa, which is more than a factor two lower than that of GaAs...

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Veröffentlicht in:Applied physics letters 1998-12, Vol.73 (25), p.3703-3705
Hauptverfasser: Perlin, Piotr, Subramanya, Sudhir G., Mars, Dan E., Kruger, Joachim, Shapiro, Noad A., Siegle, Henrik, Weber, Eicke R.
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Sprache:eng
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Zusammenfassung:We have studied the pressure and temperature dependence of the absorption edge of a 4-μm-thick layer of the alloy Ga0.92In0.08As0.985N0.015. We have measured the hydrostatic pressure coefficient of the energy gap of this alloy to be 51 meV/GPa, which is more than a factor two lower than that of GaAs (116 meV/GPa). This surprisingly large lowering of the pressure coefficient is attributed to the addition of only ∼1.5% nitrogen. In addition, the temperature-induced shift of the edge is reduced by the presence of nitrogen. We can explain this reduction by the substantial decrease of the dilatation term in the temperature dependence of the energy gap.
ISSN:0003-6951
1077-3118
DOI:10.1063/1.122869